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Aviner et al. show that translation and aggregation of Huntingtin (HTT) are regulated by a stress-responsive upstream open reading frame. Mutant HTT depletes translation elongation factor eIF5A, leading to ribosome pausing and collisions.
Two new landmark studies use innovative and complementary lineage tracing approaches in human cerebral organoids to reveal symmetric stem cell division and direct neurogenesis of basal radial glial cells to enable cortical growth, expansion and differentiation.
Liu, Zhang, Yao et al. report that IRE1 α clustering, known to be part of the unfolded protein response, is membrane-bound phase separation and that IRE1 can coalesce with the phase-separated stress granules.
Metastatic colonization involves cancer-cell-intrinsic mechanisms and microenvironmental interactions, and a better understanding of the factors that influence the final, post-extravasation phases is crucial for therapeutically targeting metatstasis.
Lindenhofer, Haendeler, Esk, Littleboy et al. perform whole-tissue lineage tracing in human cerebral organoids to reveal that a subpopulation of symmetrically dividing cells can adjust its lineage size depending on tissue demands.
Yang, Golkaram et al. reported that in human embryonic stem cells, cellular crowding leads to the blockade of FGFR1 endocytosis, resulting in a decrease in ETV4 expression. This, in turn, derepresses the neuroectoderm fate.
Xin et al. show, through intravital imaging, that KrasG12D induces epithelial tissue deformation in a spatiotemporally specific manner by converting the pulsatile ERK signal fluctuation in stem cells into sustained activation.
We show that the mitochondrial fission proteins MiD49 and MiD51 are activated by fatty acyl-coenzyme A (FA-CoA). FA-CoA binds in a previously identified pocket located within MiDs, inducing their oligomerization and ability to activate the dynamin DRP1, ultimately promoting mitochondrial fission. Activated MiDs synergize with mitochondrial fission factor (MFF) in stimulating DRP1 activity, leading us to hypothesize that MiDs act upstream of MFF during mitochondrial fission.
Our understanding of the basic mechanisms of autophagy is growing, but many questions remain about the types of autophagy cells use, when they use them, and how they function in different contexts. We asked emerging and established leaders in the field to discuss the questions and areas that they are most excited about to deepen our understanding of autophagy.
Reicher, Reiniš et al. report a method for multicolour tagging using genome-scale intron-targeting sgRNA libraries that, in combination with computer vision, enables the systematic detection of protein localization changes.
Volume electron microscopy (vEM) generates large 3D volumes of cells or tissues at nanoscale resolutions, enabling analyses of organelles in their cellular environment. Here, we provide examples of vEM in cell biology and discuss community efforts to develop standards in sample preparation and image acquisition for enhanced reproducibility and data reuse.
Chidley et al. report a CRISPR interference/activation screening platform to systematically interrogate the contribution of nutrient transporters to support cancer cell proliferation in environments of variable composition.
When transcription by RNA polymerase II is stalled by ultraviolet-induced DNA damage, it recruits repair factors, leading to excision of the damaged site and DNA synthesis to fill the gap. Three new studies show that, for aldehyde-induced DNA crosslinks, repair is activated by the same factors, but without base excision and gap filling.
Organ morphogenesis begins with proliferation, which results in tissue pressures and site-specific YAP expression, nuclear translocation and signalling. A study now reports the involvement of anisotropy, localized pressure and YAP signalling in organizer-forming cascades, introducing a new chapter of molecular mechanobiology of organogenesis.
Three studies identify a transcription-coupled DNA–protein cross-link repair pathway that depends on the Cockayne syndrome proteins and the proteasome.
Liu et al. find that long-chain acyl-coenzyme A activates two mitochondrial fission proteins, MiD49 and MiD51, by inducing their oligomerization. This activates their ability to stimulate DRP1 GTPase activity and triggers mitochondrial division.